Don’t ask what the world needs. Ask what makes you come alive, and go do it. Because what the world needs is people who have come alive.

—Howard Thurman

At the annual JavaOne conference in May 2007, Sun Microsystems announced a new product family named JavaFX. Its stated purpose includes enabling the development and deployment of content-rich applications on consumer devices such as cell phones, televisions, in-dash car systems, and browsers. Josh Marinacci, a software engineer at Sun, made the following statement very appropriately in a recent Java Posse interview: "JavaFX is sort of a code word for reinventing client Java and fixing the sins of the past." Josh was referring to the fact that Java Swing and Java 2D have lots of capability, but are also very complex. JavaFX allows us to simply and elegantly express user interfaces (Uls) with a declarative programming style. It also leverages the full power of Java, because you can instantiate and use the millions of Java classes that exist today. Add features such as binding the UI to properties in a model and change listeners that reduce the need for setter methods, and you have a combination that will help restore Java to the client side of the RIA equation.

In this topic, we give you a jump start in developing JavaFX applications. After bringing you up to date on the brief history of JavaFX, we show you how to get the JavaFX software development kit (SDK). We also explore some great JavaFX resources and walk you through the process of compiling and running JavaFX applications. In the process you’ll learn a lot about the JavaFX API as we walk through application code together. First, however, we point out a related technology that is enabling the rise of rich-client Java.

When Java was first introduced in 1995, the hope was that the Java Runtime Environment (JRE) would become the common client platform on which the UI portion of client-server applications could be deployed. Although the JRE became ubiquitous on the server side of the equation, factors such as the browser wars of the late 1990s delayed the prospect of achieving a consistent JRE on client machines. The result has been that web browser technologies such as HTML and JavaScript have stepped in to fill the gap, which we feel has proven suboptimal at best. The software development industry and the users we serve need to have the JRE on all client machines so that we can break free from browser technologies and enable graphically rich, fast-performing applications. Fortunately, the technology known as Java SE 6 Update 10 is solving that problem.

■ Note What has come to be known as Java SE 6 Update 10 has actually had several names. It started life as the Consumer JRE, and then Java SE 6 Update N. Then it became known as Java SE 6 Update 10. As of this writing, Java SE 7 has been released, but we just refer to this technology as Java SE 6 Update 10.

Java SE 6 Update 10 consists of several technologies that improve the user experience related to installing the JRE, and to deploying and running rich-client Java (and JavaFX) programs:

• Java Kernel Online Installer—The JRE is now divided into small bundles. If the user’s machine doesn’t have the JRE installed when a Java program is invoked, the online installer will ascertain which of the bundles are needed to run the program. Those bundles will be installed first and the program will begin executing as soon as this takes place.

• Java Auto-Updater: This provides a faster and more reliable process for updating the JRE by using a patch-in-place mechanism.

• Java Quick Starter: After a cold boot of the system, portions of the JRE are prefetched into memory. This enables a Java program to start more quickly.

• Pack200 Format: Pack200 is a highly compressed format that enables Java libraries and resources, for example, to download more quickly than traditional JAR files.

• Java Deployment Toolkit: This includes a simple JavaScript interface with which to deploy Java applets and applications. The JavaScript library is located at a well-known URL, and is engineered to make the right deployment decisions based on the detected JRE environment on the user’s machine.

• Next Generation Java Plug-In: This Java plug-in is much more reliable and versatile than its predecessor. For example, you now have the ability to specify large heap sizes, and per-applet command-line arguments. Also, it has built-in Java Network Launching Protocol (JNLP) support as well as improved Java/JavaScript communications.

• Hardware Acceleration Support: In a media-rich environment, it is crucial to take advantage of the graphics capabilities on the underlying hardware. For example, Java SE 6 Update 10 currently has a hardware accelerated graphics pipeline based on the Microsoft Direct3D API. This is a predecessor to the new Prism pipeline that JavaFX uses.

The net result is that we are now at a point in software development history when two technologies (JavaFX and Java SE 6 Update 10) are working together to restore rich client Java. We feel that sanity is in the process of being restored to Internet software development, and we want you to join us in this RIA revolution. But first, a brief history lesson about JavaFX.